/* do not edit automatically generated by mc from bnflex.  */
/* bnflex.mod provides a simple lexical package for pg.

Copyright (C) 2001-2023 Free Software Foundation, Inc.
Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.

This file is part of GNU Modula-2.

GNU Modula-2 is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.

GNU Modula-2 is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
General Public License for more details.

You should have received a copy of the GNU General Public License
along with GNU Modula-2; see the file COPYING3.  If not see
<http://www.gnu.org/licenses/>.  */

#   if !defined (PROC_D)
#      define PROC_D
       typedef void (*PROC_t) (void);
       typedef struct { PROC_t proc; } PROC;
#   endif

#   if !defined (TRUE)
#      define TRUE (1==1)
#   endif

#   if !defined (FALSE)
#      define FALSE (1==0)
#   endif

#include <string.h>
#include <limits.h>
#define _bnflex_H
#define _bnflex_C

#   include "GPushBackInput.h"
#   include "GSymbolKey.h"
#   include "GASCII.h"
#   include "GDebug.h"
#   include "GNameKey.h"
#   include "GStrLib.h"
#   include "GFIO.h"
#   include "GStrCase.h"
#   include "GStdIO.h"

#   define MaxNameLength 8192
typedef enum {bnflex_identtok, bnflex_literaltok, bnflex_codetok, bnflex_lbecomestok, bnflex_rbecomestok, bnflex_bartok, bnflex_lsparatok, bnflex_rsparatok, bnflex_lcparatok, bnflex_rcparatok, bnflex_lparatok, bnflex_rparatok, bnflex_errortok, bnflex_tfunctok, bnflex_symfunctok, bnflex_squotetok, bnflex_dquotetok, bnflex_moduletok, bnflex_begintok, bnflex_rulestok, bnflex_endtok, bnflex_lesstok, bnflex_gretok, bnflex_tokentok, bnflex_specialtok, bnflex_firsttok, bnflex_followtok, bnflex_BNFtok, bnflex_FNBtok, bnflex_declarationtok, bnflex_epsilontok, bnflex_eoftok} bnflex_TokenType;

static FIO_File f;
static SymbolKey_SymbolTree ReservedWords;
static NameKey_Name CurrentToken;
static bnflex_TokenType CurrentType;
static unsigned int Debugging;
static unsigned int InQuote;
static char QuoteChar;

/*
   OpenSource - Attempts to open the source file, a.
                The success of the operation is returned.
*/

extern "C" unsigned int bnflex_OpenSource (const char *a_, unsigned int _a_high);

/*
   CloseSource - Closes the current open file.
*/

extern "C" void bnflex_CloseSource (void);

/*
   GetChar - returns the current character on the input stream.
*/

extern "C" char bnflex_GetChar (void);

/*
   PutChar - pushes a character onto the push back stack, it also
             returns the character which has been pushed.
*/

extern "C" char bnflex_PutChar (char ch);

/*
   SymIs - if t is equal to the current token the next token is read
           and true is returned, otherwise false is returned.
*/

extern "C" unsigned int bnflex_SymIs (bnflex_TokenType t);

/*
   IsSym - returns the result of the comparison between the current token
           type and t.
*/

extern "C" unsigned int bnflex_IsSym (bnflex_TokenType t);

/*
   GetCurrentTokenType - returns the type of current token.
*/

extern "C" bnflex_TokenType bnflex_GetCurrentTokenType (void);

/*
   GetCurrentToken - returns the NameKey of the current token.
*/

extern "C" NameKey_Name bnflex_GetCurrentToken (void);

/*
   SkipUntilWhite - skips all characters until white space is seen.
*/

extern "C" void bnflex_SkipUntilWhite (void);

/*
   SkipWhite - skips all white space.
*/

extern "C" void bnflex_SkipWhite (void);

/*
   SkipUntilEoln - skips until a lf is seen. It consumes the lf.
*/

extern "C" void bnflex_SkipUntilEoln (void);

/*
   AdvanceToken - advances to the next token.
*/

extern "C" void bnflex_AdvanceToken (void);

/*
   IsReserved - returns TRUE if the name is a reserved word.
*/

extern "C" unsigned int bnflex_IsReserved (NameKey_Name name);

/*
   PushBackToken - pushes a token back onto input.
*/

extern "C" void bnflex_PushBackToken (NameKey_Name t);

/*
   SetDebugging - sets the debugging flag.
*/

extern "C" void bnflex_SetDebugging (unsigned int flag);

/*
   EatChar - consumes the next character in the input.
*/

static void EatChar (void);

/*
   IsWhite - returns TRUE if, ch, is a space or a tab.
*/

static unsigned int IsWhite (char ch);

/*
   SkipComments - consumes comments.
*/

static void SkipComments (void);

/*
   WriteToken -
*/

static void WriteToken (void);

/*
   Init - initialize the modules global variables.
*/

static void Init (void);


/*
   EatChar - consumes the next character in the input.
*/

static void EatChar (void)
{
  if ((PushBackInput_GetCh (f)) == ASCII_nul)
    {}  /* empty.  */
}


/*
   IsWhite - returns TRUE if, ch, is a space or a tab.
*/

static unsigned int IsWhite (char ch)
{
  return ((ch == ' ') || (ch == ASCII_tab)) || (ch == ASCII_lf);
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   SkipComments - consumes comments.
*/

static void SkipComments (void)
{
  bnflex_SkipWhite ();
  while ((bnflex_PutChar (bnflex_GetChar ())) == '-')
    {
      if (((bnflex_GetChar ()) == '-') && ((bnflex_PutChar (bnflex_GetChar ())) == '-'))
        {
          /* found comment, skip it  */
          bnflex_SkipUntilEoln ();
          bnflex_SkipWhite ();
        }
      else
        {
          /* no second '-' found thus restore first '-'  */
          if ((bnflex_PutChar ('-')) == '-')
            {}  /* empty.  */
          return ;
        }
    }
}


/*
   WriteToken -
*/

static void WriteToken (void)
{
  NameKey_WriteKey (CurrentToken);
  StdIO_Write (' ');
}


/*
   Init - initialize the modules global variables.
*/

static void Init (void)
{
  typedef struct Init__T1_a Init__T1;

  struct Init__T1_a { char array[1+1]; };
  Init__T1 a;

  SymbolKey_InitTree (&ReservedWords);
  Debugging = FALSE;
  a.array[0] = ASCII_nul;
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) &a.array[0], 1), ((unsigned int) (bnflex_eoftok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "%", 1), ((unsigned int) (bnflex_codetok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) ":=", 2), ((unsigned int) (bnflex_lbecomestok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "=:", 2), ((unsigned int) (bnflex_rbecomestok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "|", 1), ((unsigned int) (bnflex_bartok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "[", 1), ((unsigned int) (bnflex_lsparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "]", 1), ((unsigned int) (bnflex_rsparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "{", 1), ((unsigned int) (bnflex_lcparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "}", 1), ((unsigned int) (bnflex_rcparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "(", 1), ((unsigned int) (bnflex_lparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) ")", 1), ((unsigned int) (bnflex_rparatok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "<", 1), ((unsigned int) (bnflex_lesstok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) ">", 1), ((unsigned int) (bnflex_gretok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "error", 5), ((unsigned int) (bnflex_errortok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "tokenfunc", 9), ((unsigned int) (bnflex_tfunctok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "symfunc", 7), ((unsigned int) (bnflex_symfunctok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "'", 1), ((unsigned int) (bnflex_squotetok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "\"", 1), ((unsigned int) (bnflex_dquotetok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "module", 6), ((unsigned int) (bnflex_moduletok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "begin", 5), ((unsigned int) (bnflex_begintok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "rules", 5), ((unsigned int) (bnflex_rulestok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "end", 3), ((unsigned int) (bnflex_endtok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "declaration", 11), ((unsigned int) (bnflex_declarationtok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "token", 5), ((unsigned int) (bnflex_tokentok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "special", 7), ((unsigned int) (bnflex_specialtok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "first", 5), ((unsigned int) (bnflex_firsttok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "follow", 6), ((unsigned int) (bnflex_followtok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "epsilon", 7), ((unsigned int) (bnflex_epsilontok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "BNF", 3), ((unsigned int) (bnflex_BNFtok)));
  SymbolKey_PutSymKey (ReservedWords, NameKey_MakeKey ((const char *) "FNB", 3), ((unsigned int) (bnflex_FNBtok)));
  CurrentToken = NameKey_NulName;
  CurrentType = bnflex_identtok;
  InQuote = FALSE;
}


/*
   OpenSource - Attempts to open the source file, a.
                The success of the operation is returned.
*/

extern "C" unsigned int bnflex_OpenSource (const char *a_, unsigned int _a_high)
{
  char a[_a_high+1];

  /* make a local copy of each unbounded array.  */
  memcpy (a, a_, _a_high+1);

  f = PushBackInput_Open ((const char *) a, _a_high);
  return FIO_IsNoError (f);
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   CloseSource - Closes the current open file.
*/

extern "C" void bnflex_CloseSource (void)
{
  PushBackInput_Close (f);
}


/*
   GetChar - returns the current character on the input stream.
*/

extern "C" char bnflex_GetChar (void)
{
  return PushBackInput_GetCh (f);
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   PutChar - pushes a character onto the push back stack, it also
             returns the character which has been pushed.
*/

extern "C" char bnflex_PutChar (char ch)
{
  return PushBackInput_PutCh (ch);
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   SymIs - if t is equal to the current token the next token is read
           and true is returned, otherwise false is returned.
*/

extern "C" unsigned int bnflex_SymIs (bnflex_TokenType t)
{
  if (CurrentType == t)
    {
      bnflex_AdvanceToken ();
      return TRUE;
    }
  else
    {
      return FALSE;
    }
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   IsSym - returns the result of the comparison between the current token
           type and t.
*/

extern "C" unsigned int bnflex_IsSym (bnflex_TokenType t)
{
  return t == CurrentType;
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   GetCurrentTokenType - returns the type of current token.
*/

extern "C" bnflex_TokenType bnflex_GetCurrentTokenType (void)
{
  return CurrentType;
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   GetCurrentToken - returns the NameKey of the current token.
*/

extern "C" NameKey_Name bnflex_GetCurrentToken (void)
{
  return CurrentToken;
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   SkipUntilWhite - skips all characters until white space is seen.
*/

extern "C" void bnflex_SkipUntilWhite (void)
{
  while (((! (IsWhite (bnflex_PutChar (bnflex_GetChar ())))) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_nul)) || ((bnflex_PutChar (bnflex_GetChar ())) == ASCII_lf))
    {
      EatChar ();
    }
}


/*
   SkipWhite - skips all white space.
*/

extern "C" void bnflex_SkipWhite (void)
{
  while (IsWhite (bnflex_PutChar (bnflex_GetChar ())))
    {
      EatChar ();
    }
}


/*
   SkipUntilEoln - skips until a lf is seen. It consumes the lf.
*/

extern "C" void bnflex_SkipUntilEoln (void)
{
  while (((bnflex_PutChar (bnflex_GetChar ())) != ASCII_lf) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_nul))
    {
      EatChar ();
    }
  if ((bnflex_PutChar (bnflex_GetChar ())) == ASCII_lf)
    {
      EatChar ();
    }
}


/*
   AdvanceToken - advances to the next token.
*/

extern "C" void bnflex_AdvanceToken (void)
{
  typedef struct AdvanceToken__T2_a AdvanceToken__T2;

  struct AdvanceToken__T2_a { char array[MaxNameLength+1]; };
  AdvanceToken__T2 a;
  unsigned int i;

  i = 0;
  if (InQuote)
    {
      if (CurrentType == bnflex_literaltok)
        {
          if ((bnflex_PutChar (bnflex_GetChar ())) == QuoteChar)
            {
              a.array[i] = bnflex_GetChar ();
              InQuote = FALSE;
              i += 1;
              a.array[i] = ASCII_nul;
              CurrentToken = NameKey_MakeKey ((const char *) &a.array[0], MaxNameLength);
              CurrentType = (bnflex_TokenType) (SymbolKey_GetSymKey (ReservedWords, CurrentToken));
            }
          else
            {
              if (QuoteChar == '"')
                {
                  PushBackInput_WarnError ((const char *) "missing \" at the end of a literal", 33);
                }
              else
                {
                  PushBackInput_WarnError ((const char *) "missing ' at the end of a literal", 33);
                }
              InQuote = FALSE;  /* to avoid a contineous list of the same error message  */
            }
        }
      else
        {
          while ((((i < MaxNameLength) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_nul)) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_lf)) && ((bnflex_PutChar (bnflex_GetChar ())) != QuoteChar))
            {
              a.array[i] = bnflex_GetChar ();
              i += 1;
            }
          if ((bnflex_PutChar (bnflex_GetChar ())) == QuoteChar)
            {
              CurrentType = bnflex_literaltok;
              a.array[i] = ASCII_nul;
              CurrentToken = NameKey_MakeKey ((const char *) &a.array[0], MaxNameLength);
            }
          else
            {
              if (QuoteChar == '"')
                {
                  PushBackInput_WarnError ((const char *) "missing \" at the end of a literal", 33);
                }
              else
                {
                  PushBackInput_WarnError ((const char *) "missing ' at the end of a literal", 33);
                }
              InQuote = FALSE;  /* to avoid a contineous list of the same error message  */
            }
        }
    }
  else
    {
      SkipComments ();
      if (((bnflex_PutChar (bnflex_GetChar ())) == '"') || ((bnflex_PutChar (bnflex_GetChar ())) == '\''))
        {
          a.array[i] = bnflex_GetChar ();
          QuoteChar = a.array[i];
          i += 1;
          InQuote = TRUE;
          a.array[i] = ASCII_nul;
          CurrentToken = NameKey_MakeKey ((const char *) &a.array[0], MaxNameLength);
          CurrentType = (bnflex_TokenType) (SymbolKey_GetSymKey (ReservedWords, CurrentToken));
        }
      else
        {
          while (((((i < MaxNameLength) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_nul)) && ((bnflex_PutChar (bnflex_GetChar ())) != ASCII_lf)) && ((bnflex_PutChar (bnflex_GetChar ())) != QuoteChar)) && (! (IsWhite (bnflex_PutChar (bnflex_GetChar ())))))
            {
              a.array[i] = bnflex_GetChar ();
              i += 1;
            }
          a.array[i] = ASCII_nul;
          CurrentToken = NameKey_MakeKey ((const char *) &a.array[0], MaxNameLength);
          if ((SymbolKey_GetSymKey (ReservedWords, CurrentToken)) == 0)
            {
              CurrentType = bnflex_identtok;
            }
          else
            {
              CurrentType = (bnflex_TokenType) (SymbolKey_GetSymKey (ReservedWords, CurrentToken));
            }
        }
    }
  if (Debugging)
    {
      WriteToken ();
    }
}


/*
   IsReserved - returns TRUE if the name is a reserved word.
*/

extern "C" unsigned int bnflex_IsReserved (NameKey_Name name)
{
  return (SymbolKey_GetSymKey (ReservedWords, name)) != 0;
  /* static analysis guarentees a RETURN statement will be used before here.  */
  __builtin_unreachable ();
}


/*
   PushBackToken - pushes a token back onto input.
*/

extern "C" void bnflex_PushBackToken (NameKey_Name t)
{
  typedef struct PushBackToken__T3_a PushBackToken__T3;

  struct PushBackToken__T3_a { char array[MaxNameLength+1]; };
  PushBackToken__T3 a;

  NameKey_GetKey (t, (char *) &a.array[0], MaxNameLength);
  PushBackInput_PutString ((const char *) &a.array[0], MaxNameLength);
}


/*
   SetDebugging - sets the debugging flag.
*/

extern "C" void bnflex_SetDebugging (unsigned int flag)
{
  Debugging = flag;
}

extern "C" void _M2_bnflex_init (__attribute__((unused)) int argc,__attribute__((unused)) char *argv[],__attribute__((unused)) char *envp[])
{
  Init ();
}

extern "C" void _M2_bnflex_fini (__attribute__((unused)) int argc,__attribute__((unused)) char *argv[],__attribute__((unused)) char *envp[])
{
}
